Charge pump with symmetrical +V and -V outputs
First Claim
1. A method for generating, from a first voltage source providing a unipolar input voltage of first polarity having a voltage reference connection, bipolar output voltages of magnitude approximately twice the unipolar input voltage comprising the steps of:
- charging a first charge transfer device having first and second connection ends to a voltage approximating said unipolar input voltage by switchably connecting said second connection end of said first charge transfer device to said unipolar input voltage and said first connection end of said first charge transfer device to said voltage reference connection;
in a first generating step, generating a second voltage source at the first connection end of said first charge transfer device, with respect to said voltage reference connection, of magnitude substantially equal to the magnitude of said unipolar input voltage but of opposite polarity by switchably connecting said second end of said first charge transfer device to said voltage reference connection;
charging a second charge transfer device having first and second connection ends by switchably connecting said second connection end of said second charge transfer device to said unipolar input voltage and said first connection end of said second charge transfer device to said second voltage source;
in a second generating step, generating a third voltage source of magnitude approximately equal to twice the magnitude of said unipolar input voltage and of a selected polarity by switchably connecting one of said first and second connection ends of said second charge transfer device to said voltage reference connection;
in a third generating step, generating a fourth voltage source of magnitude approximately equal to twice the magnitude of said unipolar input voltage and of a polarity opposite to said selected polarity by switchably connecting the other of said first and second connection ends referenced in said second generating step to said voltage reference connection.
4 Assignments
0 Petitions
Accused Products
Abstract
Charge pump circuitry is implemented using a voltage shifting technique to generate a symmetrical bipolar voltage. The symmetrical bipolar voltage charge pump power supply can be fabricated as an integrated circuit on a single substrate, and can be integrated with various interface circuits to provide symmetrical bipolar voltage thereto. The charge pump includes voltage shifting circuitry which generates an increased output voltage of a negative polarity and an increased output voltage of a positive polarity. The shifting circuitry is responsive to an internal oscillator which triggers charge accumulation and voltage shifting. Neither output voltage is generated from the other output voltage. Rather, the negative and positive supply voltages are each generated, in substantially the same manner, by charge transfer effected by the voltage shifting circuitry in response to triggering by the internal oscillator. Additional circuitry can be fabricated on a single substrate in combination with the presently disclosed charge pump to effect the optimum utilization of circuit board area while minimizing power consumption.
-
Citations
25 Claims
-
1. A method for generating, from a first voltage source providing a unipolar input voltage of first polarity having a voltage reference connection, bipolar output voltages of magnitude approximately twice the unipolar input voltage comprising the steps of:
-
charging a first charge transfer device having first and second connection ends to a voltage approximating said unipolar input voltage by switchably connecting said second connection end of said first charge transfer device to said unipolar input voltage and said first connection end of said first charge transfer device to said voltage reference connection; in a first generating step, generating a second voltage source at the first connection end of said first charge transfer device, with respect to said voltage reference connection, of magnitude substantially equal to the magnitude of said unipolar input voltage but of opposite polarity by switchably connecting said second end of said first charge transfer device to said voltage reference connection; charging a second charge transfer device having first and second connection ends by switchably connecting said second connection end of said second charge transfer device to said unipolar input voltage and said first connection end of said second charge transfer device to said second voltage source; in a second generating step, generating a third voltage source of magnitude approximately equal to twice the magnitude of said unipolar input voltage and of a selected polarity by switchably connecting one of said first and second connection ends of said second charge transfer device to said voltage reference connection; in a third generating step, generating a fourth voltage source of magnitude approximately equal to twice the magnitude of said unipolar input voltage and of a polarity opposite to said selected polarity by switchably connecting the other of said first and second connection ends referenced in said second generating step to said voltage reference connection. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
-
-
10. A method for generating, from a first voltage source providing a unipolar input voltage of first polarity having a voltage reference connection, bipolar output voltages of magnitude approximately twice the unipolar input voltage comprising the steps of:
-
in a first reconfiguring step, switchably connecting a first capacitor having first and second connection ends such that the second connection end is electrically connected to the unipolar input voltage and the first connection end is electrically connected to the voltage reference connection to charge the first capacitor to a voltage approximating the unipolar input voltage; in a second reconfiguring step, switchably reconfiguring the first capacitor to generate a second voltage source at the first connection end of the first capacitor of magnitude substantially equal to the unipolar input voltage with respect to the voltage reference connection but of a second polarity opposite to the first polarity; in a third reconfiguring step, switchably connecting a second capacitor having first and second connection ends between the unipolar input voltage source of first polarity and the second voltage source of second polarity; in a fourth reconfiguring step, switchably reconfiguring the second capacitor to generate a third voltage source with respect to the voltage reference connection having a magnitude approximately twice the magnitude of the unipolar input voltage and having a selected polarity; and in a fifth reconfiguring step, switchably reconfiguring the second capacitor to generate a fourth voltage source with respect to the voltage reference connection having a magnitude approximately twice the magnitude of the unipolar input voltage of polarity opposite to the selected polarity of the third voltage source. - View Dependent Claims (11, 12, 13)
-
-
14. A method for generating a bipolar output voltage from a unipolar input supply voltage having a voltage reference, said method comprising the steps of:
-
charging a first charge transfer device to a first voltage approximately equal to said unipolar input supply voltage; inverting said first voltage to provide a second voltage of a magnitude approximately equal to and a polarity opposite to said first voltage and providing a third voltage between said unipolar input supply voltage and said second voltage; transferring said third voltage to a first charge storage device of a selected polarity; and transferring said third voltage to a second charge storage device of polarity opposite to said selected polarity. - View Dependent Claims (15, 16, 17)
-
-
18. An apparatus for generating a bipolar output voltage from a first voltage prov a unipolar input supply voltage having a voltage reference, comprising:
-
at least two first switching devices operative upon activation to charge a first charge transfer storage device to a first voltage approximately equal to said unipolar input supply voltage; at least two second switching devices operative upon activation to invert said first voltage to provide a second voltage of a magnitude approximately equal to and a polarity opposite to said first voltage and to couple said second voltage and said unipolar input supply voltage to provide a third voltage between said unipolar input supply voltage and said second voltage; at least two third switching devices operative upon activation to transfer said third voltage to a first charge storage device of a selected polarity; and at least two fourth switching devices operative upon activation to transfer said third voltage to a second charge storage device of polarity opposite said selected polarity. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25)
-
Specification